An `LC` resonant circuit a `400 pF` capacitor and a `100 muH` inductor. It is set into oscillation coupled to an antenna. The wavelength of the radiated electormagetic wave is

A L-C resonant circuit contains a 200 pF capacitor and a 100 muG inductor. It is set into oscillation coupled to an antenna. The wavelength of the radiated electromagnetic waves is

A L-C resonant circuit contains a 200 pF capacitor and a 100 muG inductor. It is set into oscillation coupled to an antenna. The wavelength of the radiated electromagnetic waves is

An L-c resonant circuit contains a 200 pF capacitor and a 200muH inductor. It is into oscillation coupled to an antenna. The wavelength of the radiated electromagnetic waves is

An L-c resonant circuit contains a 200 pF capacitor and a 200muH inductor. It is into oscillation coupled to an antenna. The wavelength of the radiated electromagnetic waves is

An L – C circuit contain a 400 pF capacitor and a 100muF inductor. It is set into oscillation coupled to an antenna. The wavelength of the radiated electromagnetic waves is :

An L-C resonant circuit contains a 100 muF capacitor an a 400 muH inductor. It is not set into oscillation coupled to an antenna. Find the frequency of the radiated electromagnetic waves.

An L-C resonant circuit contains a 100 muF capacitor an a 400 muH inductor. It is not set into oscillation coupled to an antenna. Find the frequency of the radiated electromagnetic waves.

A non-resistive inductor is connected across a fully charged capacitor and the L-C circuit is set oscillating at its natural frequency. What is the value of the current when the charge on the capacitor has the maximum value of 100 mu C ?